// Created on: 1991-05-15
// Created by: Isabelle GRIGNON
// Copyright (c) 1991-1999 Matra Datavision
// Copyright (c) 1999-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.

#ifndef _IntAna_IntQuadQuad_HeaderFile
#define _IntAna_IntQuadQuad_HeaderFile

#include <Standard.hxx>
#include <Standard_DefineAlloc.hxx>
#include <Standard_Handle.hxx>

#include <Standard_Boolean.hxx>
#include <IntAna_Curve.hxx>
#include <Standard_Integer.hxx>
#include <gp_Pnt.hxx>
#include <Standard_Real.hxx>
class Standard_OutOfRange;
class StdFail_NotDone;
class Standard_DomainError;
class gp_Cylinder;
class IntAna_Quadric;
class gp_Cone;
class IntAna_Curve;
class gp_Pnt;


//! This class provides the analytic intersection between a
//! cylinder or a cone from gp and another quadric, as defined
//! in the class Quadric from IntAna.
//! This algorithm is used when the geometric intersection
//! (class QuadQuadGeo from IntAna) returns no geometric
//! solution.
//! The result of the intersection may be
//! - Curves as defined in the class Curve from IntAna
//! - Points (Pnt from gp)
class IntAna_IntQuadQuad 
{
public:

  DEFINE_STANDARD_ALLOC

  
  //! Empty Constructor
  Standard_EXPORT IntAna_IntQuadQuad();
  
  //! Creates the intersection between a cylinder and a quadric .
  //! Tol est a definir plus precisemment.
  Standard_EXPORT IntAna_IntQuadQuad(const gp_Cylinder& C, const IntAna_Quadric& Q, const Standard_Real Tol);
  
  //! Creates the intersection between a cone and a quadric.
  //! Tol est a definir plus precisemment.
  Standard_EXPORT IntAna_IntQuadQuad(const gp_Cone& C, const IntAna_Quadric& Q, const Standard_Real Tol);
  
  //! Intersects a cylinder and a quadric .
  //! Tol est a definir plus precisemment.
  Standard_EXPORT void Perform (const gp_Cylinder& C, const IntAna_Quadric& Q, const Standard_Real Tol);
  
  //! Intersects a cone and a quadric.
  //! Tol est a definir plus precisemment.
  Standard_EXPORT void Perform (const gp_Cone& C, const IntAna_Quadric& Q, const Standard_Real Tol);
  
  //! Returns True if the computation was successful.
    Standard_Boolean IsDone() const;
  
  //! Returns TRUE if the cylinder, the cone or the sphere
  //! is identical to the quadric.
    Standard_Boolean IdenticalElements() const;
  
  //! Returns the number of curves solution.
    Standard_Integer NbCurve() const;
  
  //! Returns the curve of range N.
  Standard_EXPORT const IntAna_Curve& Curve (const Standard_Integer N) const;
  
  //! Returns the number of contact point.
    Standard_Integer NbPnt() const;
  
  //! Returns the point of range N.
  Standard_EXPORT const gp_Pnt& Point (const Standard_Integer N) const;
  
  //! Returns  the paramaters on the  "explicit quadric"
  //! (i.e  the cylinder or the  cone, the
  //! first argument   given to the constructor)  of the
  //! point of  range  N.
  Standard_EXPORT void Parameters (const Standard_Integer N, Standard_Real& U1, Standard_Real& U2) const;
  
  //! Returns True if the Curve I  shares its last bound
  //! with another curve.
  Standard_EXPORT Standard_Boolean HasNextCurve (const Standard_Integer I) const;
  
  //! If  HasNextCurve(I)  returns True,  this  function
  //! returns  the  Index J  of the curve  which   has a
  //! common bound  with the curve   I.  If  theOpposite ==
  //! True , then the last parameter of the curve I, and
  //! the last parameter of  the curve J  give  the same
  //! point. Else the last  parameter of the curve I and
  //! the first parameter  of  the curve J are  the same
  //! point.
  Standard_EXPORT Standard_Integer NextCurve (const Standard_Integer I, Standard_Boolean& theOpposite) const;
  
  //! Returns True if the Curve I shares its first bound
  //! with another curve.
  Standard_EXPORT Standard_Boolean HasPreviousCurve (const Standard_Integer I) const;
  
  //! if HasPreviousCurve(I) returns True, this function
  //! returns the   Index  J of the   curve  which has a
  //! common  bound with the  curve  I.  If theOpposite  ==
  //! True  , then the  first parameter of  the curve I,
  //! and the first parameter of the curve  J  give  the
  //! same point. Else the first  parameter of the curve
  //! I and the last  parameter  of the curve J  are the
  //! same point.
  Standard_EXPORT Standard_Integer PreviousCurve (const Standard_Integer I, Standard_Boolean& theOpposite) const;




protected:

  
  //! Set the next and previous fields. Private method.
  Standard_EXPORT void InternalSetNextAndPrevious();


  Standard_Boolean done;
  Standard_Boolean identical;
  IntAna_Curve TheCurve[12];
  Standard_Integer previouscurve[12];
  Standard_Integer nextcurve[12];
  Standard_Integer NbCurves;
  Standard_Integer Nbpoints;
  gp_Pnt Thepoints[2];
  Standard_Integer myNbMaxCurves;
  Standard_Real myEpsilon;
  Standard_Real myEpsilonCoeffPolyNull;


private:





};


#include <IntAna_IntQuadQuad.lxx>





#endif // _IntAna_IntQuadQuad_HeaderFile
